Portable one man root poisoning system for sewers

ABSTRACT

An Improved system for killing roots in sewers, an individual portable system to eliminate the roots in the sewers, this system making it possible to treat the zones touched by problems of roots by treating only the zone concerned and not the overall length of the drain of sewer. The system according to the invention penetrates in the sewer by an opening of cleaning, moves to the zone which poses problem and inflates in order to retain the poison dispensed by the dispenser. This system makes it possible to more easily deal with problems of roots in the sewers more quickly and, which makes it possible to reduce the cost. All the zones touched by problems of roots can be treated, treatment limits the progression of the roots and destroys them, which makes it possible to prevent the over flow of sewers and the damage of the drains of sewers. The prevention of overflows of sewers makes it possible to protect the environment, in particular the wildlife, the water life, the water supply, and to avoid the closing of beaches, lakes, etc In a general way, this system contributes to preserve the environment.

CROSS-REFERENCE TO RELATED APPLICATION

Not applicable

BACKGROUND

1. Field of Invention

Not applicable

2. Background of the Invention

This invention relates to a sewer plug, specifically to an improved sewer plug. The sewer plug is a device used to plug a sewer pipe or line, to either keep sewer waters from entering a sewer pipe or to keep sewer waters in a sewer pipe. Sewer pipes or lines can range from a foot to well over twenty feet under ground. The sewer system consist of a variation of pipes or lines, which may start from in a private side of a property such as a home or business. This line is mostly referred to as a service line, which would range about three to four inches in diameter and is located a foot or a couple of feet under ground in a private property. The service line is connected to a stand pipe, the stand pipe also ranges from three to four inches in diameter, and is also located in the private side of a property. These two lines differ in the way they are set, the service line is set horizontally bringing sewer waters from a home or business to the stand pipe While the stand pipe has a cleanout located above ground to service the sewer laterals, the stand pipe is set vertically which brings sewer waters from the service line which is just a couple of feet under ground in a vertical direction to a sewer lateral which can be located from five to fifteen feet under ground and range from six to eight inches in diameter. Sewer laterals are connected to sewer mains which can be located from five to over twenty feet under ground, and range from six to twenty inches in diameter. Main lines are connected to sewer manholes, manholes can be located at a distance of fifty feet to a few hundred feet connecting sewer mains. Manhole's are used as an access to the sewer main for maintenance purpose. Sewer laterals are connected to the main line between sewer manholes. Most sewer collection systems operate by gravity flow, meaning one end of the line is higher than the other. Beginning at the service line, to the stand pipe, to the lateral, to the main, and the main being the lower end. Sewer lateral pipes can range from lengths of three feet to twenty feet, root intrusion accurse causing obstructions in sewer lines. But when connected together they form main sewer lines, which at times can range from a length of twenty feet to a few hundred feet. Sewer manholes are located at various distances, to have an entrance so that maintenance can be preformed and where sewer lines intersect. A sewer line running between manholes are intersected with sewer laterals. A cleanout is located at the other end of these laterals, having a vertical stand pipe and a depth of five to fifteen feet. The problem is that the entrance of these clean outs and the stand pipe have a diameter of three to four inches. The sewer laterals have a diameter of six inches and the sewer main line a diameter of six inches greater. A lot of times roots make their way into sewer lines and laterals joints, poisons are often used to kill these roots. And plugs are needed to let sewer waters flow thru these pipes but at the same time needs to hold back foam caused when the poison and waters agitate. But the plugs that are used are made of metal and or rubber, making it impossible to send a six or ten inch plug into a four inch clean out.

Furthermore, because the sewer system works by gravity flow if a section located at the top end of main line the entire main line would need to be poisoned because it would have to be plugged at the very bottom of the down stream main line, wasting time and money. And the laterals are impossible to be plugged. When poison is poured through the clean out, because the laterals cannot be plugged majority of the poison is washed away. The reason why roots are a big problem in the sewer system, is that it obstructs water flow and clog's sewer lines cause sing major sewer spills. Being that roots are a part of a plant or tree it continues to grow even after mechanical maintenance is preformed.

After working the City & County for more than ten years, I came up with this invention, which would place a plug in a clean out housing directly where the problem is.

What my invention will do is send a plug through a clean out and plug a lateral or a main line just down stream of the root intrusion and block the poisonous suds from flowing down stream and defeating it's purpose. All previous plugs suffer from a variety of disadvantages:

(a) Because some plugs are made of metal and rubber, it is made almost exactly in the same diameter as the size of pipe it is intended to plug. Making it difficult to enter a clean out of four inches in diameter and plug a six-inch pipe.

(b) Because some plugs are made of rubber and much small then the diameter of the pipe it is intended to plug using these plug defeats the purpose.

(c) Because these plugs are not able to adjust in size through my experience it is impossible to plug a sewer lateral.

(d) By using my invention, it will make poisoning of roots that enter sewer line much more efficient by just poisoning the area that needs to be poisoned

(e) By using my invention, it will make poisoning of roots that enter the sewer system much more efficient, by savings of the cost on poison that can cost from $500.00 and more to poison a 100 ft main sewer line when an area of less then a foot of line was needed to be poisoned.

(f) By using my invention, it will make poisoning of roots that enter the sewer system much more efficient by saving on the cost of the poison all root problemed lines can be poisoned, through my experience because of the cost the poison just a very small percentage of root problemed lines are treated and the rest is maintained by mechanical mean. But because there is no retardation on the root growth sewer spill have many times accrued because the roots continue to grow.

(g) By using my invention, it will make poisoning of roots that enter the sewer system much more efficient by savings of the cost on labor that can be costly when a 100 ft main sewer line is poisoned when an area of less then a foot of line was needed to be poisoned.

(h) By using my invention, it will make poisoning of roots that enter the sewer system much more efficient, by retarding root growth or killing of the roots preventive maintenance schedules will be extended, rather then returning to a problemed line every six months to a year, eliminating the problem rather then maintaining it save a tremendous amount of money.

(i) By using my invention, it will make poisoning of roots that enter the sewer system much more efficient, by eliminating the roots in the sewer lines the chances of a sewer spill lessens.

(j) By using my invention, it will make poisoning of roots that enter the sewer system much more efficient, by lessening sewer spills law suits from the Environmental Protection Agency are more likely to lessen also, saving Sanitary Districts thousands of dollars.

(k) By using my invention, it will make poisoning of roots that enter the sewer system much more efficient, by eliminating the root growth in sewer lines also eliminates transporting of heavy equipment that have injured a tremendous amount of workers can be lessened.

(l) By using my invention, it will make poisoning of roots that enter the sewer system much more efficient, basically by eliminating root growth in the sewer system, the injury of workers law suits, cost of poisoning of roots, closing of rivers, lakes, beaches, water ways, endangerment of plants, animals, aquatic life, our water supply are all lessened.

(m) By using my invention, it will make poisoning of roots that enter the sewer system much more efficient, by eliminating sewer spills basically protects our environment.

(x) By using my invention, it will make poisoning of roots that enter the sewer, system much more efficient, by

SUMMARY OF THE INVENTION

In accordance with the present sewer plug, a sewer plug that will deflate to a minimal size in diameter allowing a inflatable sewer plug to enter and travel thru a sewer pipe smaller in diameter than the pipe needing to be plugged and be able to plug a pipe of greater size in diameter. To provide a sewer plug that will be able to poison sewer laterals by holding back the foam of the root poison in sewer laterals. Nevertheless provide a sewer plug that will help prevent roots from plants and trees from entering sewer lines that causes sewer spills. Basically prevent the closing of streams, rivers, lakes, beaches, and prevent endangerment of our wildlife such as plants, animals, aquatic life and our water supply and protecting our environment.

OBJECTS AND ADVANTAGES

Besides the objects and advantages of the inflatable sewer plug as described in the above patent, several objects and advantages of the present invention are:

-   -   (a) to provide a system that is portable, that can be         transportable to areas of all root intrusion areas.     -   (b) to provide a system that will, enter a pipe of much size in         diameter and plug a pipe of much greater size.     -   (c) to provide a system that will, plug a sewer lateral, as well         as a main sewer line.     -   (d) to provide a system that will, make poisoning of roots that         enter sewer line much more efficient by just poisoning the area         that needs to be poisoned     -   (e) to provide a system that will, make poisoning of roots that         enter the sewer system much more efficient, by savings of the         cost on poison that can cost from $500.00 and more to poison a         100 ft main sewer line when an area of less then a few feet of         line was needed to be poisoned.     -   (f) to provide a system that will, make poisoning of roots that         enter the sewer system much more efficient by saving on the cost         of the poison all root problem lines can be poisoned.     -   (g) to provide a system plug that will, make poisoning of roots         that enter the sewer system much more efficient by savings of         the cost on labor that can be costly when a 100 ft main sewer         line is poisoned when an area of less then a foot of line was         needed to be poisoned.     -   (h) to provide a system that will, make poisoning of roots that         enter the sewer system much more efficient, by retarding root         growth or killing of the roots, preventive maintenance schedules         will be extended, rather then returning to a problem line every         six months to a year, eliminating the problem rather then         maintaining it saves a tremendous amount of money.     -   (i) to provide a system that will, make poisoning of roots that         enter the sewer system much more efficient, by eliminating the         roots in the sewer lines the chances of a sewer spill lessens.     -   (j) to provide a system that will, will make poisoning of roots         that enter the sewer system much more efficient, by lessening         sewer spills law suits from the Environmental Protection Agency         are more likely to lessen also, saving Sanitary Districts         thousands of dollars.     -   (k) to provide a system that will, make poisoning of roots that         enter the sewer system much more efficient, by eliminating the         root growth in sewer lines also eliminates transporting of heavy         equipment that have injured a tremendous amount of workers can         be lessened.     -   (l) to provide a system that will, make poisoning of roots that         enter the sewer system much more efficient, basically by         eliminating root growth in the sewer system, the injury of         workers law suits, cost of poisoning of roots, closing of         rivers, lakes, beaches, water ways, endangerment of plants,         animals, aquatic life, our water supply are all lessened.     -   (m) to provide a sewer plug that will, make poisoning of roots         that enter the sewer system much more efficient, by eliminating         sewer spills we basically protects our environment.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

FIG. 1 shows a complete view of the portable one man root poisoning system for sewers.

FIG. 2 shows a portable air tank with the manifold and air line connections.

FIG. 3 shows a portable water tank with a air line connection producing air presser in tank and forcing water out of the portable water tank caused be air presser.

FIG. 4 shows a air line with male and female connection and distant marker on air line.

FIG. 5 shows a male connection with connection mean to a air line, with a safety stiffen line.

FIG. 6 shows a female connection with connection mean to a air line, with a safety stiffen line.

FIG. 7 shows a rear bladder plug assembly with expandable plug assembly.

FIG. 8 shows a front sled assembly with expandable plug assembly.

FIG. 9 shows an expandable plug with connection to rear plug and front sled.

FIG. 10 shows a view of the expandable plug with a protective braking bag with a bag zipper a elastic strap a adjustable strap and bag clamp.

FIG. 11 shows a view of the expandable plug with a protective braking bag with a bag zipper a elastic strap a adjustable strap and bag clamp, and the adjustable strap connector, inflated.

FIG. 12 shows a complete view of the outer section of the applicator with poison applied.

FIG. 13 shows a rear view of the applicator mounted to the transportable reel.

FIG. 14 shows a inner view of the applicator tank.

FIG. 15 shows a view of a split fitting that divides one source water into two.

FIG. 16 shows a view of a connection to a source of water under presser.

FIG. 17 shows a view of the water line to applicator and to a wash line with nozzle.

FIG. 18 shows a connection of a air line distant counter connected to the transportable reel, the connection of the air line from the manifold to the transportable reel and the connection from reel to the air line.

FIG. 19 shows a view of the expandable plug that has entered the cleanout passed through the lateral, entered the main sewer line down stream of the root problem area, with roots intrusion inflated and the application of poison applied from applicator. Reference Numeral In Drawing 1 manifold 3 air line from reel to expandable plug 5 applicator 7 expanble plug 9 portable air tank 11 transportable reel 13 reel handle 15 reel wheel 17 portable water tank 19 air tank presser gauge 21 air tank safety release valve 23 air tank fill valve 25 air tank shut off valve 27 air tank manifold 29 manifold connection 31 air line regulator 33 air line fill valve 35 air line air flow meter 37 air line air presser gauge 39 air line air presser release valve 41 dummy plug 43 air line from manifold to reel 45 water tank regulator 47 water tank air fill valve 49 water tank air flow meter 51 water tank air presser gauge 53 water tank air presser release valve 55 air line from manifold to water tank 57 air tank mounting bracket to reel 59 water for activating root poison 61 water line from water tank applicator 63 water tank fill cap 65 air and water line mount to water tank 67 water tank mounting bracket to reel 69 air line distant counter 71 female swivel air line connector 75 male air line connector 77 distant markers 79 ferrule 81 sleeve 83 safety stiffening cable 85 air line protective skin 87 open end female connector 89 rear bladder plug body 91 rear bladder plug 93 rear expandable plug sled 95 front sled body 97 front bladder plug 99 plug aperture 101 safety cable washer 103 front sled 105 expandable bladder 107 non-expandable bladder sleeve 109 bladder clamp 111 expandable plug braking and protective bag 113 bag zipper 115 elastic strap 117 adjustable strap 119 adjustable strap connector 123 applicator tank lid 125 applicator tank window 127 measurement of volume 129 applicator tank body 131 applicator tank funnel 133 tank connection to applicator 135 applicator connection to tank 137 applicator body 139 applicator connection to 141 applicator extension body 145 extension connection to applicator 147 extension to applicator mixer 149 applicator mixer 151 mixer connection to extension 153 applicator mount to transportable reel 155 multiple mounting brackets 157 cone sheild 159 chemical root control system (ROOTX) 161 holding screen 163 applicator tee fitting 165 upward facing nozzle 167 downward facing nozzle 169 fitting connection to tee fitting 171 stream of water 173 activating poison 175 female connector for connection to garden hose 177 tee fitting 179 water shut on/off valve 181 wash line 183 wash line shut on/off valve 185 wash line adjustable spray nozzle 186 expandable plug air line 187 sealant 189 air presser release manifold 191 cleanout 193 sewer lateral 195 main sewer line

DETAILED DESCRIPTION OF THE INVENTION

Provisional Application Filling date: Nov. 15, 2003. Provisional Application No. 60/520,125.A A Portable One Man Root Poisoning System For Sewers is illustrated in FIG. (1). The Portable one man root poisoning system for sewers consist of a complete transportable system comprising a transportable reel, carriage, cart, etc. 11, for winding and holding of a air line, air hose, air tube, etc, 3 as shown in FIG. (1). The transportable reel 11, consist of a reel handle, control arm, handle bar, etc. 13, a wheel, tire, transporting means, etc 15, as illustrated in FIG. (1) a multiple mounting brackets, mounting hooks, etc, 155, is illustrated in FIG. (13) A air line distant counter 69, as illustrated in FIG. (18). A portable air tank, air compressor, air pump, etc 9, having a air tank mounting bracket to reel 57, means for connection to the transportable reel 11, is illustrated in FIG. (2). The portable air tank 9, consisting of a manifold 1, is illustrated in FIG. (2). The manifold 1, having a air line, air hose, etc, 43, to the transportable reel 11, is illustrated in FIG. (2) and FIG. (18). The airline 3, consist of a expandable plug, balloon, stopper, etc, 7, is illustrated in FIG. (1). Manifold 1, consist of a second air line, air hose etc 55, from manifold to a portable water tank, water drum, water barrel, etc, 17, as illustrated in FIG. (2) and FIG. (3). The water tank 17, also having mounting means for connection to the transportable reel 11, is illustrated in FIG. (3). The water tank 17, having a water line, water hose, etc, 61, is illustrated in FIG. (3) consist of a applicator, mixer, processor, etc, 5, as illustrated in FIG. (12). The portable air tank 9, and portable water tank 17, that can be purchased from a variety of manufactures, is first mounted to the portable reel 11, The portable air tank 9, consist of a air tank manifold 27, a air tank fill valve 23, a air tank shut off valve 25, a air tank safety release valve 21, and a air tank presser gauge 19. A manifold connection 29, is connected to the air tank manifold 27, and manifold 1, as illustrated in FIG. (2). The manifold 1, having an inlet for air coming from the portable tank 9, and two outlets, first outlet is adjoined to a air line regulator 31, the other to a water tank regulator 45. The air line regulator 31, is connected to the manifold 1, a air line fill valve 33, connected to the air line regulator 45, a air line air flow meter 35, is connected to the air line fill valve 33, A air line presser gauge 37, is connected to the an air line air flow meter 35, a air line air-presser release valve manifold 189, is connected to the air line air flow meter 35, a air presser release valve manifold 189, has three outlets one for a connection to an air line air presser release valve 39, a dummy plug 41, and one to a the air line from manifold to reel 43, as illustrated in FIG. (2) and FIG. (18).

The air line 3, connected to transportable reel 11, consist of a durable and flexible hose made Of nylon, rubber, plastic, fiber optics, etc, 3, which protected by a air line protective skin 85, is made of a durable material that will glide thru sewer pipes with minimal friction such as POLY-E which can be purchased by United States plastic corp. and other manufactures to protect the air line 3, as illustrated in FIG. (5) and FIG. (6), from abrasion's. A female swivel air line connector 71, is connected to the air line 3, using a ferrule 79, the ferrule 79, is connected by crimping air line 3, to a female swivel air line connector 71, A safety stiffening cable 83, made of a stainless steal cable, plastic, fiber glass, etc, as illustrated in FIG. (6), is inserted thru air line 3, and the female swivel air line connector 71, at one end a male air line connector 75, the safety stiffening cable 83, is thinned out by removing outer strands of the safety stiffening cable 83, on both ends as illustrated in FIG. (5) and illustrated in FIG. (6). A sleeve 81, is attach to the core of safety cable 83, As illustrated in FIG. (5) and FIG. (6). The sleeve 81, is connected by crimping, welding, etc, the sleeve 81, to the safety stiffening cable 83, at both ends as illustrated in FIG. (5) and FIG. (6). The air line 3, also consist a distant marker 77. as illustrated in FIG. (4). The air line 3, is connected to a expandable plug air line 186, expandable plug, balloon, stopper, brake, etc 7. is illustrated in FIG. (7), the expandable plug air line 186, consist of a expandable plug air line, air hose, air line, etc, 186. The expandable plug air line 186, consist of a rear bladder plug, etc, 91, a rear bladder plug body, plug base, etc, 89, a rear expandable plug sled, plug slide, etc, 93, made of a rigid, smooth, light, durable, material such as a plastic (Poly-Vinyl-Clorite) metal, etc, as illustrated in FIG. (7). The rear bladder plug, 89, is assembled by first boring the rear expandable plug sled 93, to a diameter large enough to allow the expandable plug air line 186, pass thru the rear expandable plug sled 93, rear bladder plug body, 89, also has a diameter large enough to allow the expandable plug air line 186, to pass thru the rear bladder plug body, 89. The rear expandable plug sled 93, is connected to the rear bladder plug body, 89 by cleaning and gluing using P.V.C cement, etc. The expandable plug air line 186, is inserted thru The rear expandable plug sled 93, and the rear bladder plug body, 89. The male air line connector 75, is connected to the air line 3, using the ferrule 79, the rear bladder plug 91, is bored and tapped to a diameter with threads so the male air line connector 75, can be screwed to the rear bladder plug 91, a sealant, glue, etc, 187 is applied to the male air line connector 75, to keep air from exiting the expandable plug 7. The air line 3, is then connected to the rear bladder plug 91, by screwing the male air line connector 75, to the rear bladder plug 91. The rear expandable plug sled 93, and the rear bladder plug body, 89, is then connected to the rear bladder plug 91, by using PVC glue. The air line protective skin 85, is slipped over The expandable plug air line 186, and the female swivel air line connector 71, is then connected to the expandable plug air line 186, using the ferrule 79. The safety stiffening cable is installed in the same manner as the air line from reel to expandable plug 3, using the ferrule 79, as illustrated in FIG. (7). The expandable plug 7, also consist of a front sled as illustrated in FIG. (8). The front sled as illustrated in FIG. (8), consist of a front sled body, etc, 95, a front bladder plug, etc, 97, a front sled, etc, 103, all, made of a rigid, smooth, light, durable, material such as plastic (Poly-Vinyl-Clorite) metal, etc, as illustrated in FIG. (8). The front bladder plug, etc, 97, consist of a aperture, hole, etc, 99, to allow a safety stiffening cable 83, to connect to the front bladder plug, 97. The front bladder plug, 97, the front sled body, 95, by using PVC glue. the safety stiffening cable 83, is inserted thru a aperture 99, a safety cable washer, ring, etc, 101, is slipped over the safety stiffening cable 83, and the sleeve 81, is connected to stiffening cable 83, by crimping. The front sled body, 95, is connected to the front bladder plug, 97, by cleaning and gluing using P.V.C cement, front sled, 103, is connected to The front sled body, 95, by cleaning and gluing using P.V.C cement. A open end female connector 87, is connected to stiffening cable 83, the sleeve 81, as illustrated in FIG. (8). A non-expandable bladder sleeve, tube, etc, 107, is connected to a expandable bladder, sleeve, etc, 105, is made of a expandable, flexible, retractable, material such as a firm surgical rubber, rubber, plastic etc, 105, at both ends as illustrated in FIG. (9). The expandable bladder, 105, is connected to the front bladder plug, 97, using a bladder clamp, zip tie, 109, the open end female connector 87, is connected to the male air line connector 75, of the expandable plug air line 186, the other end of The expandable bladder, 105, is then connected to the rear bladder plug 91, using the bladder clamp, 109, as illustrated in FIG. (9). A expandable plug braking and protective bag, jacket, etc, 111, as illustrated in FIG. (10). The expandable plug braking and protective bag, 111, is made of a non stretchable material such nylon, canvas, etc. The expandable plug braking and protective bag, 111, consists of a bag zipper, Velcro, snaps, etc, 113, a stretchable retractable trap, made of elastic, rubber, etc, 115, a adjustable strap, sleeve, etc, 117, made of a non stretchable material such as nylon, canvas, etc, 117. The adjustable strap 117, consists of a adjustable strap connector, snap, Velcro, etc, 119, as illustrated in FIG. (10). The expandable plug braking and protective bag, 111, is connected to and the rear bladder plug body, 89, and the front sled body, 95, by wrapping the expandable plug braking and protective bag, 111, around expandable bladder 105, a connecting both ends with bag zipper, 113, The adjustable strap 117, is connected by using a adjustable strap connector 119, expandable plug braking and protective bag, 111, is connected rear bladder plug body 89, at one end using a bag clamp, zip tie etc, 121, and The front sled body, 95, at the other end using the bag clamp 121, as illustrated in FIG. (10).

Referring back to manifold 1, the second outlet of manifold 1, is adjoined to a water tank regulator 45, a water tank air fill valve 47, is connected to the water tank regulator 45, a water tank air flow meter 49, is connected to the water tank air fill valve 47, a water tank air presser gauge 51, is connected to the water tank air flow meter 49, the air presser release valve manifold 189, is connected to the water tank air presser gauge 51, a water tank air presser release valve 53, is connected the air presser release valve manifold 189, a air line from manifold to water tank 55, is connected to the air presser release valve manifold 189, as illustrated in FIG. (2). The air line from manifold to water tank 55, is connected to a air and water line mount to water tank 65, as illustrated in FIG. (3). The portable water tank 17, also consist of a water tank mouth 63, a water tank mouth, a mounting brackets to reel 67, and a water from water tank to applicator 61, as illustrated in FIG. (3). The water line from water tank to applicator 61, as illustrated in FIG. (3) FIG. (12) and FIG. (17), consist of a female connection for connection to a garden hose 175, as illustrated in FIG. (16). a tee fitting 177, is connected to the water line from water tank to applicator 61. The tee fitting 177, consist first of the water line from water tank to applicator 61, also consist of a water shut on/off valve 179, as illustrated in FIG. (15). The water line from water tank to applicator 61, is then connected to the applicator 5, as illustrated in FIG. (12) and FIG. (14). The tee fitting 177, consist secondly of a wash line 181, and also includes a wash line shut on/off valve 183, as illustrated in FIG. (17), and a wash line adjustable spray nozzle 185, as illustrated in FIG. (17).

Referring back to the water line from water tank to applicator 61, is connected to the applicator 5, as illustrated in FIG. (14). The applicator 5, consist of a applicator tank body 129, a applicator tank funnel 131, a tank connection to applicator 133, a applicator body 137, a applicator extension body 141, and applicator tank lid 123, as illustrated in FIG. (12), is made of a ridgid material such as plastic, PVC (Poly-Vinly-Clorite), ABS (Aciryalonitrile-Butadiene-Styrene), metals and other plastics. The applicator tank body 129, consist of a applicator tank window 125, a measurement of volume 127, a applicator mount to transportable reel 153, as illustrated in FIG. (12) and FIG. (18). The applicator tank body 129, also consist of a cone shaped shield 157, made of a ridgid material such as a plastic, metal, etc, is connected to inner side of applicator tank body 129, adhesive, rivet, screw, etc, as illustrated in FIG. (13). The applicator tank body 129, is connected to the applicator tank funnel 131, by cleaning and gluing using plastic cement, etc, A holding screen 161, is connected by placing the holding screen 161, between the applicator tank funnel 131, a tank connection to applicator 133, while connecting the applicator tank funnel 131, and tank connection to applicator 133, by cleaning and gluing using plasitic cement, etc, as illustrated in FIG. (14).

The applicator body 137, consist of a applicator connection to tank 135, and applicator connection to extension 139, as illustrated in FIG. (14). The applicator body 137, also consist of a applicator tee fitting 163. A upward facing adjustable nozzle 165, and a downward facing adjustable nozzle 167, is connected to the applicator tee fitting 163, as illustrated in FIG. (14). The applicator tee fitting 163, is then connected to the applicator body 137, by drilling The applicator body 137, and connecting the applicator tee fitting 163, to a fitting connection 169, connected to the water line from water tank to applicator 61, as illustrated in FIG. (14) by tightening then gluing.

The applicator extension body 141, also consist of a extension connection to applicator 145, and a extension connection to applicator mixer 147. A applicator mixer 149, is connected to a mixer connection to extension 151, using adhesives, rivets, screws, etc. as illustrated in FIG. (12).

Description of the Operation

The advantage of using the Portable one man root poisoning system for sewers is to send a plug into a pipe small then the pipe intended to be plugged so root poisoning procedures can be performed in a more efficient method. My invention is fully assembled as shown in FIG. (1).

The invention is first prepped by filling the air tank 9, with compressed air using air tank fill valve 23, air tank shut off valve 25, used to preserve air pressure in the portable air tank 9. The air tank presser gauge 19, measures the air presser in the air tank 9, The safety relief valve 21, is used if the air tank 9, is filled more then the manufactures recommended air pressure. The portable water tank 17, is filled with water as illustrated in FIG. (2). The applicator tank 129, is also filled with a chemical root control system 159, such as ROOTX, which can be purchased at www.navo.com/Chem/ROOTX.html as illustrated in FIG. (159).

As maintenance procedures are performed in the sewer system such rodding. Rodding is similar to what a plumber calls snaking but mush larger in size. Once rods encounter roots in the sewer system a measurement is taken of the length of rods that entered the sewer. The roots are removed by cutting. The measurement is recorded, for the first application a sewer camera is used to find the exact location of the root problem area in the sewer pipe. Rather then sending the camera the same route as the rods, the camera can be sent though a cleanout closest up stream of the problem area. (For example: if problem area is 175 ft. down stream from sewer manhole that the rods entered and each property is 50 ft. in width the camera should be sent though the cleanout connected to the sewer lateral closest up stream from problem area. Which would most likely be the cleanout of the third property down stream of the problem area). Once the camera locates roots another measurement is taken. Although roots have been cut it is almost impossible to eliminate all traces where root intrusion accrued, most likely a joint or crack of pipe. The distant the camera traveled to reach problem area is recorded for present and future use,

Once problem area is recorded, camera is removed and my invention is ready for application. The Portable one man root poisoning system is transported to the ideal cleanout using reel handle 13, and reels 15, be pulling reel handle 13, toward the direction of reel wheel 15, and rolling. The expandable plug 7, is inserted though cleanout, using the air line from reel to expandable plug 3, pushing the expandable plug 7, to the desired distance using the air line distant counter 69, or the distant markers 77, as illustrated in FIG. (4) and FIG. (19), the distant markers 77, is to view distance at cleanout rather at a distance using the air line distant counter 69, and an extra insurance of distance of the expandable plug 7, in pipe. Once at the desired distance the air line regulator 31, regulates air presser sent to the expandable plug 7, the air line fill valve 33, fills the expandable plug 7, the air line air flow meter 35, regulates the volume of air passing though to the expandable plug 7. The air line presser gauge 37, regulates the amount of presser in the air line from reel to expandable plug 3, to indicate that the expandable plug 7, is inflated to its desired circumference according to gauge on the air line presser gauge 37. The dummy plug 41, is used as a insurance that the expandable plug 7, is inflated to it's desired circumference. the air line from manifold to reel 43, transfers air under presser to transportable reel 11, as illustrated in FIG. (11) and FIG. (19). The transportable reel 11, transfers air under presser to the air line from reel to expandable plug 3, as illustrated in FIG. (18). The safety stiffening cable 83, used for stiffening the air line from reel to expandable plug 3, to travel a far distance with out coiling up in the sewer line and strength if the air line from reel to expandable plug 3, may be caught by a obstacle, illustrated in FIG. (5) and FIG. (6) The sleeve 81, prevents the safety stiffening cable 83, from disconnecting the male air line connector 75, and female swivel air line connector 71, the female swivel air line connector 71, allows the for connection and disconnection of the air line from reel to expandable plug 3, with out rotating the air line from reel to expandable plug 3. The expandable plug air line 186, allows to change the expandable plug 7, and giving the expandable plug 7, a grace distance down stream of root problem as an insurance that the expandable plug 7, is definitely down stream of the problem area. The rear bladder plug body 89, is a base to connect the rear bladder plug 91, and the rear expandable plug sled 93. The rear expandable plug sled 93, allows the expandable plug 7, to be pulled back with no restriction as a sled. The rear bladder plug 91, prevents the expandable bladder 105, from disconnecting from the rear bladder plug body 89, by using the bladder clamp 109, as illustrated in FIG. (9) and FIG. (10). The safety stiffening cable 83, is an insurance should the expandable plug 7, be caught by an obstacle when retrieving the expandable plug 7. The front sled body 95, is a base to connect the front bladder plug 97, and front sled 103, the front bladder plug 97, prevents the expandable bladder 105, from disconnecting from the front bladder plug 97, by using the bladder clamp 109, as illustrated in FIG. (9). The open end female connector 87, allows the change of the expandable bladder 105, if damaged, while still using the rear bladder plug body 89, and the front sled body 95. As the expandable bladder 105, inflates the expandable plug braking and protective bag 111, brakes the expansion of the expandable bladder 105, protects the expandable bladder 105, from foreign objects known to be in the sewer system. The elastic strap 115, reduces the circumference of the expandable plug braking and protective bag 111, when the expandable bladder 105, is deflated. the adjustable strap 117, makes it allowable to make a quick adjustment on circumference of the expandable plug 7, by shortening the adjustable strap 117, using the adjustable strap connector 119, as illustrated in FIG. (11) and FIG. (19). The bag zipper 113, connects the both length ends of the expandable plug braking and protective bag 111, to secure the expandable plug braking and protective bag 111, around the expandable bladder 105, the bag clamp 121, secures the expandable plug braking and protective bag 111, the rear bladder plug body 89, and the front sled body 95, as illustrated in FIG. (11).

Referring back to the manifold 1, the applicator 5, is inserted into the cleanout 191, as illustrated in FIG. (00000). the water tank regulator 45, regulates air presser sent to the portable water tank 17, the water tank air fill valve 47, fills the portable water tank 17, with compressed air the water tank air flow meter 49, regulates the volume of air passing though to the portable water tank 17, water tank air presser gauge 51, regulates the amount of presser in the portable water tank 17. The air line from manifold to water tank 55, transfers air under presser to the portable water tank 17, as the water presser builds in the portable water tank 17, the water for activating root poison 59, is forced out of the portable water tank 17, as the water for activating root poison 59, is forced though the water line from water tank to applicator 61. as illustrated in FIG. (3), The female connector for connection to garden hose 175, connects to a water source under presser such as a water line of a property. The portable water tank 17, is used when water presser from water line of a property does not have enough presser to activate the process of the applicator 5. The tee fitting 177, having two outlets of water under presser exiting the tee fitting 177, the first is having connection to the water line from water tank to applicator 61. The water line from, water tank to applicator 61, forces water though the water shut on/off valve 179, to turn on and turn off water source to applicator 5 as illustrated in FIG. (15) and FIG. (17). the applicator tank body 129, supplies the applicator body 137, with the chemical root control system (ROOTX) 159, the cone shield 157, is a second source of protection other than applicator tank lid 123, that protects the operator from being sprayed by the mixer of water and the chemical as illustrated in FIG. (13). The applicator tank funnel 131, funnels the chemical root control system (ROOTX) 159, though the applicator tank body 129, to The holding screen 161. as illustrated in FIG. (13)

The applicator tee fitting 163, of the applicator 137, forces water though the upward facing nozzle 165, and downward facing nozzle 167, as illustrated in FIG. (14). the upward facing nozzle 165, starts the activation of the chemical root control system (ROOTX) 159, as it sprays the chemical root control system (ROOTX) 159, on the holding screen 161. Once the water for activating root poison 59, has contact with the chemical root control system (ROOTX) 159, it begins to foam the downward facing nozzle 167, washes the activating chemical root control system (ROOTX) 159, though the applicator 5, as illustrated in FIG. (14). The applicator connection to tank 135, and the tank connection to applicator 133, allows the separation of the applicator tank 129, and applicator 137, for adjustment of the upward facing nozzle 165. The applicator extension body 141, is inserted into cleanout and serves as a base, as illustrated in FIG. (14). The extension connection to applicator 145, allows the separation of the applicator extension body 141, and the applicator 137, for adjustment of the downward facing nozzle 167. The applicator mixer 149, speeds up the activation the chemical root control system (ROOTX) 159, the corrugated hose keeps the foam in the applicator mixer 149, as the downward facing nozzle 167, adds more water before dropping the chemical root control system (ROOTX) 159, the mixer connection to extension 151, allows for disconnection from applicator extension 141, as illustrated in FIG. (12)

Although the applicator mixer 149, is mentioned the idea of my invention, the idea of my invention is to have the full maturity of the chemical root control system (ROOTX) 159, happen at location of the expandable plug 7. The applicator mixer 149, is mainly for roots located in the laterals. As the activating chemical root control system (ROOTX) 159, drops from the applicator 5, the wash line 181, adds water to the cleanout which carries the foam of the activating chemical root control system (ROOTX) 159, to main sewer line, and water flowing in the sewer carries the activating chemical root control system (ROOTX) 159, to expandable plug 7, once there the agitation of the water flowing under the expandable plug 7. The expandable plug 7, is buoyant because of the material used, and is never inflated to the diameter size of pipe being plugged, a quick adjustment can be made on the size of the expandable plug 7, by adjusting the adjustable strap 117, and the adjustable strap connector 119, as illustrated in FIG. (19). The size of the expandable plug 7, can be determined while camera locates problem, checking water level flowing through pipe. The dummy plug 41, duplicates the size the expandable plug 7, if not filling the expandable plug 7, to its fullness is desired.

The expandable plug 7, is left a few minutes as recommended. Once the applicator tank window 125, shows no sigh of the chemical root control system (ROOTX) 159, and tank is empty, water shut on/off valve 179, turned off, the applicator tank lid 123, removed and the applicator 5, is rinsed removing all chemical root control system (ROOIX) 159 using the wash line 181, the applicator 5, is removed from cleanout. The expandable plug 7, is then pulled back while being rinsed and wound in transportable reel 11, as far as possible while still inflated to pull back the fully activated chemical root control system (ROOTX) 159, which will treat any root intrusion not identified by roots the rods or the camera. Then the expandable plug 7, is deflated by using the air line air presser release valve 39, and rinsed. The wash line shut on/off valve 183, is turned off and air in the portable water tank 17, is released by water tank air presser release valve 53.

The camera is sent once more to guaranty success of the application, chemical sticks to roots and pipe, data is recorded so camera is not needed for future application for that problem. The system can be used to check on root growth in the future more efficiently, rather then rod the 175 ft. or using the camera, a dry run is performed using the expandable plug 7, the expandable plug 7, taken to the distance of the problem inflated and pulled back if the expandable plug 7, has resistance while being pulled back it would be time for another application if no resistance, retardation, or death of roots have accrued.

While I shown and described in considerable detail what I consider to be the preferred form of my invention it will be understood by those skilled in the art that various changes may be made in shape and arrangement of the parts of the device and that such details are not intended to limit the scope of the claims. 

1. A Portable one man root poisoning system for sewers, comprising: (a), regulating of an air under greater than atmospheric presser, of a means of conveying said air under greater than atmospheric presser having one end open for an entrance of said air under greater than atmospheric presser and one end closed for containing air under greater than atmospheric presser to produce an expansion of a expandable section of the said conveying means. That enters and travels through a section of the sewer system and expanding in much greater size than section entered, for holding of a poisonous substance at a desired location in the said sewer system. (b) a means of applying of said poisons substance into an undesired location of the said sewer system and travel to a desired location, for the killing of roots that intrudes through pipes of said sewer system.
 2. A Portable one man root poisoning system for sewers as defined in claim 1 and further including a means of supplying of said air under greater than atmospheric presser for the said expansion of said expandable section of said conveying means, and further including an inlet for filling of said means of supplying of said air under greater than atmospheric presser
 3. A Portable one man root poisoning system for sewers as defined in claim 1 and further including a means regulation of said air under greater than atmospheric presser, for regulating presser and volume of said air under greater than atmospheric presser, transported to of said expandable section of the said conveying means.
 4. A Portable one man root poisoning system for sewers as defined in claim 3 and further including a connection means, having more then one outlet, connected to of said supply of said air under greater than atmospheric presser, for connection of said regulating means to regulate the of said air under greater than atmospheric presser, from said supply of air under greater than atmospheric presser.
 5. A Portable one man root poisoning system for sewers as defined in claim 3 and further including a one directional valve, having connection means for connections to the of said regulating means, for regulation of the volume of air under greater than atmospheric presser, from the of said regulating means.
 6. A Portable one man root poisoning system for sewers as defined in claim 3 and further including a means of regulating volume of said air under greater than atmospheric presser, having connection means for connection to the of said one directional valve, for regulation of the volume of air under greater than atmospheric presser, from the of said, one directional valve.
 7. A Portable one man root poisoning system for sewers as defined in claim 3 and further including a means of regulating presser of said air under greater than atmospheric presser, having connection means for connection to the of said means of regulating volume, for regulation of presser of air under greater than atmospheric presser, from the of said expandable section of the said conveying means.
 8. A Portable one man root poisoning system for sewers as defined in claim 3 and further including a connection means for multiple connection to of said means of regulating presser, having connection means for multiple connections.
 9. A Portable one man root poisoning system for sewers as defined in claim 3 and further including a air presser release valve, connected to means for multiple connection of said for releasing the of said for air under greater than atmospheric presser, from the of said expandable section of the said conveying means.
 10. A Portable one man root poisoning system for sewers as defined in claim 3 and further including a expandable section of the said conveying means, connected to means for multiple connection, for a duplication of size of the said expandable section of the said conveying means when inflated.
 11. A Portable one man root poisoning system for sewers as defined in claim 3 and further including a connection of said conveying means, to the of said multiple connection means to a transportable means of system.
 12. A Portable one man root poisoning system for sewers as defined in claim 3 and further including a transportable apparatus, for transportation of said Portable one man root poisoning system for sewers, and including mounting means for the of said supplying means of air under greater than atmospheric presser, a control arm for controlling the direction while transporting, a wheel for rolling along various surfaces, a means of calculating the distance of said conveying means existing the said transportable means, a means of containment of said conveying means, a means of transporting air under greater than atmospheric presser, from of said conveying means connected to the of said multiple connection means to the transportable means to another section of said conveying means.
 13. A Portable one man root poisoning system for sewers as defined in claim 3 and further including a connection from of said conveying means to the of said transportable means to transport the of said air under greater than atmospheric presser, to the said expandable section of the said conveying means, be means of connection at the other end of said conveying means.
 14. A Portable one man root poisoning system for sewers as defined in claim 13 and further including a stiffening and safety means to allow the said conveying means to travel a far distance while making the bends associated in the said sewer system through the said sewer system.
 15. A Portable one man root poisoning system for sewers as defined in claim 13 and further including a braking means connected to the said stiffening and safety means, for braking of the said stiffening and safety means from exiting the said conveying means also as an extra insure to keep the connection means of the said conveying means from separation of conveying means.
 16. A Portable one man root poisoning system for sewers as defined in claim 13 and further including a skin covering the said conveying means to protect the said conveying means from abrasion while traveling through the said sewer system, while adding a slick means of eliminating fiction while traveling through the said sewer system.
 17. A Portable one man root poisoning system for sewers as defined in claim 16 and further including a scale of a measurement having a means of connection to the said skin of said conveying means for a view of the distance that the said conveying means has traveled through the said sewer system.
 18. A Portable one man root poisoning system for sewers as defined in claim 3 and further including the said expandable section of the said conveying means, for the expansion of the expandable section of the said conveying means, for holding of the said poisonous, for treating intruding roots in the said sewer system.
 19. A Portable one man root poisoning system for sewers as defined in claim 18 and further including an expandable section of said conveying means air line, having a stiffening and safety means with said connection means at both ends said for connection to the said conveying means of air under greater than atmospheric presser, having connection means to of said conveying means for air under greater than atmospheric presser,
 20. A Portable one man root poisoning system for sewers as defined in claim 18 and further including a rear plug for connection and a rear closure of a expandable bladder, sealing the one end of said expandable bladder, for containing air under greater than atmospheric presser, within the said expandable bladder.
 21. A Portable one man root poisoning system for sewers as defined in claim 20 and further including a sled having connection means to of said plug for allowing the said expandable section of said conveying means gliding through the said sewer system with less friction.
 22. A Portable one man root poisoning system for sewers as defined in claim 20 and further including a rear plug bladder plug for the prevention of expandable bladder from disconnecting from of said rear plug when the said expandable bladder is inflated.
 23. A Portable one man root poisoning system for sewers as defined in claim 20 and further including a connection means for connecting the said expandable bladder to the of said rear bladder plug, for the prevention disconnection from of said rear bladder plug.
 24. A Portable one man root poisoning system for sewers as defined in claim 19 and further including a front bladder plug for a closure of the front end of expandable bladder, a closure for containing of the said air under greater than atmospheric presser when expandable bladder is inflated.
 25. A Portable one man root poisoning system for sewers as defined in claim 24 and further including a front pilot for leading the of said conveying means through the said sewer system, for passing the of said bend associated with the sewer system.
 26. A Portable one man root poisoning system for sewers as defined in claim 24 and further including a front bladder plug rear brake having a aperture, having connection to the of said front plug for the prevention of the expandable bladder from disconnecting from of said front bladder plug.
 27. A Portable one man root poisoning system for sewers as defined in claim 24 and further including a stiffen and safety means connected to the of said front bladder plug having a means of a supporting base connected to of said stiffening and safety means with connections with a of said brake to of said stiffening and safety means, preventing of said stiffening and safety means from existing of said front bladder plug
 28. A Portable one man root poisoning system for sewers as defined in claim and further including a connection to the of said stiffening and safety means to the expandable section of rear bladder plug for replacing of the said expandable bladder, should bladder be damaged.
 29. A Portable one man root poisoning system for sewers as defined in claim 19 and further including a means of connection from the said expandable bladder to the said front bladder plug for preventing the expandable bladder from disconnecting of said front bladder plug.
 30. A Portable one man root poisoning system for sewers as defined in claim 19 and further including a means of braking and protection, covering the entire said expandable bladder, for braking of said expandable bladder from being over inflated and for protecting the said expandable bladder from foreign objects when system has entered the said sewer system.
 31. A Portable one man root poisoning system for sewers as defined in claim 30 and further including at least one expandable and retractable means running along the circumference of said expandable bladder, for expansion when of said expandable bladder is inflated, and for retracting of said braking and protection means are deflated, having a connection means to said braking means.
 32. A Portable one man root poisoning system for sewers as defined in claim 30 and further including at least one means of a adjustment of size, for a quick means of adjustment of size of the said expansion of said expandable bladder, for the adjustment to a pipe size of said sewer line of said expandable bladder
 33. A Portable one man root poisoning system for sewers as defined in claim 30 and further including a connection means, for a connection of the both ends of said braking and protection means, connecting both ends by its length, from said rear plug and said front plug for protection of said expandable bladder.
 33. A Portable one man root poisoning system for sewers as defined in claim 30 and further including a connection means, for connecting the said braking and protection means at one end to said rear plug and the other end to said front plug, for hold braking means to both plugs.
 34. A Portable one man root poisoning system for sewers as defined in claim 1 and further including a applicator, for applying a poisonous substance to the said sewer for the killing of said roots in the sewer system.
 35. A Portable one man root poisoning system for sewers as defined in claim 1 and further including a means of holding a liquid, which air under greater than atmospheric presser, forced into the said holding means of one end, while building the said air under greater than atmospheric presser in said holding means and forcing a liquid out the other end, including a connection means to said transportation means, including mouth for filling the said liquid holding means, with a liquid.
 36. A Portable one man root poisoning system for sewers as defined in claim 35 and further including regulating means connected the said connection means with more than one outlet to regulate the of said air under greater than atmospheric presser, from said supply of air under greater than atmospheric presser, to of said liquid holding means, to said liquid holding means.
 37. A Portable one man root poisoning system for sewers as defined in claim 35 and further including a one directional valve, having connection means for connection to the of said regulating means, for regulation of the volume of air under greater than atmospheric presser, from the of said regulating means, to said liquid holding means.
 38. A Portable one man root poisoning system for sewers as defined in claim 35 and further including a means of regulating volume of said air under greater than atmospheric presser, having connection means for connection to the of said one directional valve, for regulation of the volume of air under greater than atmospheric presser, from the of said, one directional valve, to said liquid holding means.
 39. A Portable one man root poisoning system for sewers as defined in claim 35 and further including a means of regulating presser of said air under greater than atmospheric presser, having connection means for connection to the of said means of regulating volume, for regulation of presser of air under greater than atmospheric presser, from the of said expandable section of the said liquid holding means.
 40. A Portable one man root poisoning system for sewers as defined in claim 35 and further including a connection means for multiple connection to of said means of regulating presser, having connection means for multiple connections
 41. A Portable one man root poisoning system for sewers as defined in claim 35 and further including a air presser release valve, connected to means for multiple connection of said for releasing the of said for air under greater than atmospheric presser, from the of said liquid holding means.
 42. A Portable one man root poisoning system for sewers as defined in claim 35 and further including a connection of said conveying means, to the of said multiple connection means to a liquid holding means.
 43. A Portable one man root poisoning system for sewers as defined in claim 35 and further including a means of conveying liquid under greater than atmospheric presser, having means of a connection to said liquid holding means, for supplying the said applicator with liquid under greater than atmospheric presser, for the application of said poisonous substance to the said sewer system.
 44. A Portable one man root poisoning system for sewers as defined in claim 35 and further including a connection with in the length of said means of conveying liquid under greater than atmospheric of said for a connection to a different source of liquid under greater than atmospheric presser, for supplying the said applicator with liquid under greater than atmospheric presser.
 45. A Portable one man root poisoning system for sewers as defined in claim 35 and further including a connection means for connection to of said means of conveying liquid under greater than atmospheric presser, having more than one outlet, for splitting of one said means of conveying liquid under greater than atmospheric presser, into two means of conveying liquid under greater than atmospheric presser, the first means conveying liquid under greater than atmospheric presser, supplies the applicator with liquid under greater than atmospheric presser, and the second transport the poisonous substance through the said sewer system.
 46. A Portable one man root poisoning system for sewers as defined in claim 35 and further including a one directional valve, connected to the said second means of conveying liquid under greater than atmospheric presser, to control the amount of said liquid under greater than atmospheric presser, to transport of said poisonous substance through the said sewer system.
 47. A Portable one man root poisoning system for sewers as defined in claim 35 and further including an adjustable outlet connected to the end of said second means of conveying liquid under greater than atmospheric presser, for various options to transport said poisonous substance through of said sewer system.
 48. A Portable one man root poisoning system for sewers as defined in claim 1 and further including a of said applicator for activating of said poisonous substance
 49. A Portable one man root poisoning system for sewers as defined in claim 48 and further including a means of containing the said poisonous substance having a cone shape bottom, to funnel the said poisonous substance to one area of said containing means.
 50. A Portable one man root poisoning system for sewers as defined in claim 49 and further including a means closure of said containing means.
 51. A Portable one man root poisoning system for sewers as defined in claim 49 and further including at least one window having a scale of volume, for measuring of said poisons substance, within of said containing means.
 52. A Portable one man root poisoning system for sewers as defined in claim 49 and further including a means of mounting of said applicator to said transportable means, when transporting system.
 53. A Portable one man root poisoning system for sewers as defined in claim 49 and further including a holding means located at the of containing means having at least one passage for of said poisonous substance to pass through, once of said poisonous substance is activated.
 54. A Portable one man root poisoning system for sewers as defined in claim 49 and further including a shield connected to the inner side of said containing means by connection means, for the protection of said liquid under greater than atmospheric presser.
 55. A Portable one man root poisoning system for sewers as defined in claim 49 and further including a connection for the connection to a activating means, for the performance of maintenance of said applicator.
 56. A Portable one man root poisoning system for sewers as defined in claim 55 and further including a removable housing having openings and connection means at both ends and also including a aperture for the connection for of said activating means.
 57. A Portable one man root poisoning system for sewers as defined in claim 55 and further including a connection from said first means of conveying liquid under greater than atmospheric presser having a valve, for controlling the volume of liquid entering of said applicator, connected to the removable housing.
 58. A Portable one man root poisoning system for sewers as defined in claim 55 and further including a connection means connected of first means of conveying liquid under greater than atmospheric presser, having at least one outlet for a connect of upward facing adjustable outlet, for the adjustment liquid exiting the said adjustable outlet, for activating the said poisonous substance, and including a downward facing adjustable out let for washing poisonous substance out of said applicator.
 59. A Portable one man root poisoning system for sewers as defined in claim 55 and further including a housing extension, having a opening and connection means at both ends for the connection to of said removable housing.
 60. A Portable one man root poisoning system for sewers as defined in claim 55 and further including a housing having at least one groove on the inside of said housing for a quicker activating means and also having connection means to said housing extension. 